Heat Recovery SYSTEM
HEAT RECOVERY SYSTEM
Introduction/What is TO
The heat recovery system could recovery heat from air pollution control systems, such as a Thermal Oxidizer, Regenerative Thermal Oxidizer, or Catalytic Oxidizer can not only reduce operating costs, but can also reduce Greenhouse Gas (GHG) emissions.
The heat recovery system is suitable for various applications, including process exhaust gases with heating or cooling requirements, in-house heating within factories, part drying processes, equipment aiming to reduce carbon emissions, preheating combustion air, and processes requiring heated water.
theory
The operation for heat recovery system is rooted in the fundamental laws of heat transfer physics. This system efficiently utilizes energy by transferring excess heat generated from one system to another, thereby improving economic benefits. Heat recovery systems encompass common equipment such as boilers, oil furnaces, and plate heat exchangers. Boilers and oil furnaces are specialized devices primarily employed for steam and thermal oil generation.
The principle of a waste heat boiler is to transfer waste heat to water, causing the water to rise in temperature and convert into steam. The generated steam can be utilized for heating, power generation, or other thermal energy applications in industrial processes.The waste heat boiler not only reduces the demand for external energy sources but also mitigates the environmental impact of waste heat emissions.
Waste heat boilers find extensive applications across various industries such as chemical, steel, textile, and power, making them a crucial energy-saving and environmentally friendly equipment.
A plate heat exchanger adopts a plate-fin structure. In the case of an incinerator, a portion of the high-temperature flue gas is used for heat exchange with air by the plate heat exchanger, turning it into supplementary oxygen air for the incinerator. Elevating the temperature of the supplementary oxygen air contributes to fuel consumption savings. The plate heat exchangers produced by RuiDing utilize advanced heat transfer element technology and unique structural techniques. Through fully welded plate manufacturing processes and a modular quick assembly structure, they are widely used in various fields such as chemical, petroleum, power, metallurgy, and coating, facilitating heating, cooling, condensation, evaporation, and hierarchical heat recovery.
RUIDING SMART MANUFACTURING, MEETING SAFETY STANDARDS.
Heat Recovery SYSTEM
ADVANTAGES
- Corrosion-resistant, Long Lifespan: The heat recovery systems produced by Ruiding exhibit outstanding corrosion resistance and a long lifespan, showcasing remarkable durability in high-temperature and high-pressure environments.
- Advanced Techniques: RuiDing’s plate heat exchangers employ laser deep-melting welding and double-seam welding technologies, ensuring strong sealing performance that meets stringent standards of zero leakage, providing users with reliable equipment performance.
- Wide Application: Waste heat boilers can be flexibly matched with various waste treatment equipment such as RTO, RCO, rotary kilns, and so on, suitable for multiple processing scenarios, offering a broad range of application choices for different industries.
- Compact Footprint, High Economic Benefits: Waste heat boilers have a relatively small footprint while capturing and utilizing high-value waste steam, significantly enhancing economic benefits and creating substantial added value for users.
Heat Recovery SYSTEM
Item example
